#pragma once
#include"hash_table.h"
using namespace std;

namespace Unordered_Map
{
	template<class K, class V, class Hash = HashFunc<K>>
	class unordered_map
	{
	public:
		//仿函数
		struct MapKeyOfT
		{
			const K& operator()(const pair<K, V>& kv)
			{
				return kv.first;
			}
		};
	public:
		//迭代器
		typedef typename HashBucket::HashTable<K, pair<const K, V>, MapKeyOfT, Hash>::iterator iterator;
		typedef typename HashBucket::HashTable<K, pair<const K, V>, MapKeyOfT, Hash>::const_iterator const_iterator;

		iterator begin()
		{
			return _ht.begin();
		}

		iterator end()
		{
			return _ht.end();
		}

		const_iterator begin() const
		{
			return _ht.begin();
		}

		const_iterator end() const
		{
			return _ht.end();
		}

		V& operator[](const K& key)
		{
			pair<iterator, bool> ret = insert(make_pair(key, V()));
			return ret.first->second;
		}

		//接口: insert + erase + find
		pair<iterator, bool> insert(const pair<K, V>& kv)
		{
			return _ht.Insert(kv);
		}

		iterator find(const K& key)
		{
			return _ht.Find(key);
		}

		bool erase(const K& key)
		{
			return _ht.Erase(key);
		}

	private:
		HashBucket::HashTable<K, pair<const K, V>, MapKeyOfT, Hash> _ht;
	};

	void test1()
	{
		string arr[] = { "西瓜", "西瓜", "苹果", "西瓜", "苹果", "苹果", "西瓜", "苹果", "香蕉", "苹果", "香蕉", "梨" };
		unordered_map<string, int> countMap;
		for (auto& e : arr)
		{
			countMap[e]++;
		}

		for (auto& kv : countMap)
		{
			cout << kv.first << ":" << kv.second << endl;
		}
	}

	void test2() 
	{

	}

}